12 research outputs found

    Stratégies migratoires en présence de barriÚres écologiques et différence de vulnérabilité à la prédation chez des pluviers nichant dans l'Arctique

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    RÉSUMÉ: Identifier les processus et les facteurs affectant la distribution gĂ©ographique et les limites de rĂ©partition des espĂšces demeure l'une des questions fondamentales de l'Ă©cologie et de la biogĂ©ographie. Les barriĂšres Ă©cologiques peuvent avoir une influence majeure sur la rĂ©partition d'une espĂšce en limitant la dispersion et l'Ă©volution des routes migratoires. Les facteurs biotiques tels que la prĂ©dation peuvent aussi affecter la rĂ©partition, mais leurs effets Ă  large Ă©chelle sont difficiles Ă  estimer et souvent surpassĂ©s par les facteurs abiotiques tels que le climat ou les barriĂšres Ă©cologiques. Nous avons Ă©tudiĂ© les effets des barriĂšres Ă©cologiques sur les stratĂ©gies migratoires et le rĂŽle potentiel de la prĂ©dation des nids sur l'aire de nidification de limicoles arctiques, un groupe d'oiseaux connu pour ses grandes migrations et particuliĂšrement affectĂ© par les variations dans la pression de prĂ©dation. Notre premier objectif Ă©tait d'examiner la stratĂ©gie migratoire utilisĂ©e par le Pluvier grand-gravelot (Charadrius hiaticula) le long de la route migratoire transatlantique caractĂ©risĂ©e par la prĂ©sence de barriĂšres Ă©cologiques majeures. Notre second objectif Ă©tait de i) quantifier la vulnĂ©rabilitĂ© relative des nids de pluviers Ă  la prĂ©dation chez des espĂšces ayant des aires de nidification contrastĂ©es, le Pluvier grand-gravelot et le Pluvier dorĂ© (Pluvialis dominica/apricaria/fulva), et de ii) dĂ©terminer si la diffĂ©rence de vulnĂ©rabilitĂ© Ă  la prĂ©dation pouvait s'expliquer par leur habitat de nidification respectif. À l'Île Bylot dans l'Arctique canadien, nous avons Ă©quipĂ© des Pluviers grand-gravelot nicheurs de gĂ©olocalisateurs afin de retracer leurs migrations. Nous avons aussi quantifiĂ© la survie des nids des Pluviers grand-gravelot et dorĂ©s durant trois Ă©tĂ©s et estimĂ© le risque de prĂ©dation dans l'habitat de chacune des espĂšces Ă  l'aide de nids artificiels. Nos rĂ©sultats provenant des gĂ©olocalisateurs (n=20) ont rĂ©vĂ©lĂ© des stratĂ©gies migratoires contrastĂ©es entre les saisons. Les rĂ©sultats ont rĂ©vĂ©lĂ© un patron migratoire contrastĂ© entre les saisons, montrant que les pluviers minimisent les distances de vol au-dessus de l'ocĂ©an au printemps en faisant un dĂ©tour pour faire halte en Islande. À l'automne, cependant, la plupart des individus traversent l'ocĂ©an en un vol direct du sud du Groenland jusqu'en Europe de l'Ouest, aussi loin que le sud de l'Espagne, avant de rejoindre leur aire d'hivernage en Afrique de l'Ouest. Ces rĂ©sultats soutiennent l'hypothĂšse que les routes migratoires minimisant les distances de vol au-dessus des barriĂšres Ă©cologiques sont favorisĂ©es par la sĂ©lection naturelle, Ă  moins que les pluviers puissent bĂ©nĂ©ficier de l'assistance Ă©olienne facilitant une traversĂ©e directe. Le suivi de nidification et les nids artificiels ont rĂ©vĂ©lĂ© que i) le Pluvier grand-gravelot, prĂ©sentant une aire de rĂ©partition trĂšs large et nichant le long des rives rocailleuses, montre un taux de survie des nids plus Ă©levĂ© que le Pluvier dorĂ© qui lui niche en toundra mĂ©sique, et que ii) cette diffĂ©rence dans le risque de prĂ©dation des nids s'explique, du moins en partie, par le type d'habitat de nidification. Nous suggĂ©rons que les espĂšces adaptĂ©es Ă  nicher dans des habitats moins risquĂ©s seraient plus aptes Ă  persister dans des rĂ©gions caractĂ©risĂ©es par une pression de prĂ©dation Ă©levĂ©e, et ainsi maintenir une aire de rĂ©partition plus large. -- Mot(s) clĂ©(s) en français : RĂ©partition, BarriĂšres Ă©cologiques, Arctique, Migration transatlantique, Risque de prĂ©dation, Habitat refuge, DĂ©tour migratoire, Limicoles, Charadrius hiaticula. -- ABSTRACT: Identifying processes and factors affecting species distribution remains a fundamental question in ecology and biogeography. Ecological barriers can have a major influence on the distribution of a species by limiting dispersal and constraining migration routes. Biotic factors like predation can also influence distribution, but their effects at broad spatial scales are difficult to assess and often overwhelmed by abiotic factors like ecological barriers and climate. We studied the effect of ecological barriers on migration strategies and the potential role of nest predation on breeding range in arctic shorebirds, known for their long-distance migrations and particularly affected by variations in predation pressure. Our first objective was to investigate the migration strategies of the Ringed Plover (Charadrius hiaticula) along the transatlantic migration route, characterized by significant ecological barriers. The second objective was to i) quantify the relative vulnerability of plover nests to predators in species with contrasting breeding ranges, the Ringed Plover and the Golden Plovers (Pluvialis dominica/apricaria/fulva), and ii) examine if differences in vulnerability to predators could be explained by their respective nesting habitat. On Bylot Island, in the Canadian Arctic, we equipped nesting Ringed Plovers with geolocator devices to track their migrations. We also quantified the nest survival of Ringed and Golden Plovers over three summers and conducted artificial nest experiments to quantify predation risk in the nesting habitat used by each species. Our results from geolocators (n=20) showed contrasting seasonal migration strategies, with Ringed Plovers minimizing continuous flight distances over the ocean in spring by making a detour to stop in Iceland. In autumn, however, most individuals crossed the ocean in one direct flight from Southern Greenland to Western Europe, as far as Southern Spain, before reaching their wintering area in West Africa. These results support the hypothesis that migration routes minimizing flight distances over ecological barriers are favored by natural selection, unless plovers can benefit from wind assistance. Nest monitoring and artificial nests also revealed that i) the widely distributed Ringed Plovers nesting along stony riverbanks showed a higher nest survival rate than the Golden Plovers nesting in mesic tundra and ii) the difference in nest predation rate was at least partly driven by nesting habitat type per se. We suggest that species adapted to nesting in less risky habitat are more likely to persist in regions characterised by high predation pressure, and hence can have broader distribution. -- Mot(s) clĂ©(s) en anglais : Distribution range, Ecological barriers, Arctic, Transatlantic migration, Predation risk, Refuge habitat, Migration detour, Shorebirds, Charadrius hiaticula

    Stratégies migratoires en présence de barriÚres écologiques et différence de vulnérabilité à la prédation chez des pluviers nichant dans l'Arctique

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    RÉSUMÉ: Identifier les processus et les facteurs affectant la distribution gĂ©ographique et les limites de rĂ©partition des espĂšces demeure l'une des questions fondamentales de l'Ă©cologie et de la biogĂ©ographie. Les barriĂšres Ă©cologiques peuvent avoir une influence majeure sur la rĂ©partition d'une espĂšce en limitant la dispersion et l'Ă©volution des routes migratoires. Les facteurs biotiques tels que la prĂ©dation peuvent aussi affecter la rĂ©partition, mais leurs effets Ă  large Ă©chelle sont difficiles Ă  estimer et souvent surpassĂ©s par les facteurs abiotiques tels que le climat ou les barriĂšres Ă©cologiques. Nous avons Ă©tudiĂ© les effets des barriĂšres Ă©cologiques sur les stratĂ©gies migratoires et le rĂŽle potentiel de la prĂ©dation des nids sur l'aire de nidification de limicoles arctiques, un groupe d'oiseaux connu pour ses grandes migrations et particuliĂšrement affectĂ© par les variations dans la pression de prĂ©dation. Notre premier objectif Ă©tait d'examiner la stratĂ©gie migratoire utilisĂ©e par le Pluvier grand-gravelot (Charadrius hiaticula) le long de la route migratoire transatlantique caractĂ©risĂ©e par la prĂ©sence de barriĂšres Ă©cologiques majeures. Notre second objectif Ă©tait de i) quantifier la vulnĂ©rabilitĂ© relative des nids de pluviers Ă  la prĂ©dation chez des espĂšces ayant des aires de nidification contrastĂ©es, le Pluvier grand-gravelot et le Pluvier dorĂ© (Pluvialis dominica/apricaria/fulva), et de ii) dĂ©terminer si la diffĂ©rence de vulnĂ©rabilitĂ© Ă  la prĂ©dation pouvait s'expliquer par leur habitat de nidification respectif. À l'Île Bylot dans l'Arctique canadien, nous avons Ă©quipĂ© des Pluviers grand-gravelot nicheurs de gĂ©olocalisateurs afin de retracer leurs migrations. Nous avons aussi quantifiĂ© la survie des nids des Pluviers grand-gravelot et dorĂ©s durant trois Ă©tĂ©s et estimĂ© le risque de prĂ©dation dans l'habitat de chacune des espĂšces Ă  l'aide de nids artificiels. Nos rĂ©sultats provenant des gĂ©olocalisateurs (n=20) ont rĂ©vĂ©lĂ© des stratĂ©gies migratoires contrastĂ©es entre les saisons. Les rĂ©sultats ont rĂ©vĂ©lĂ© un patron migratoire contrastĂ© entre les saisons, montrant que les pluviers minimisent les distances de vol au-dessus de l'ocĂ©an au printemps en faisant un dĂ©tour pour faire halte en Islande. À l'automne, cependant, la plupart des individus traversent l'ocĂ©an en un vol direct du sud du Groenland jusqu'en Europe de l'Ouest, aussi loin que le sud de l'Espagne, avant de rejoindre leur aire d'hivernage en Afrique de l'Ouest. Ces rĂ©sultats soutiennent l'hypothĂšse que les routes migratoires minimisant les distances de vol au-dessus des barriĂšres Ă©cologiques sont favorisĂ©es par la sĂ©lection naturelle, Ă  moins que les pluviers puissent bĂ©nĂ©ficier de l'assistance Ă©olienne facilitant une traversĂ©e directe. Le suivi de nidification et les nids artificiels ont rĂ©vĂ©lĂ© que i) le Pluvier grand-gravelot, prĂ©sentant une aire de rĂ©partition trĂšs large et nichant le long des rives rocailleuses, montre un taux de survie des nids plus Ă©levĂ© que le Pluvier dorĂ© qui lui niche en toundra mĂ©sique, et que ii) cette diffĂ©rence dans le risque de prĂ©dation des nids s'explique, du moins en partie, par le type d'habitat de nidification. Nous suggĂ©rons que les espĂšces adaptĂ©es Ă  nicher dans des habitats moins risquĂ©s seraient plus aptes Ă  persister dans des rĂ©gions caractĂ©risĂ©es par une pression de prĂ©dation Ă©levĂ©e, et ainsi maintenir une aire de rĂ©partition plus large. -- Mot(s) clĂ©(s) en français : RĂ©partition, BarriĂšres Ă©cologiques, Arctique, Migration transatlantique, Risque de prĂ©dation, Habitat refuge, DĂ©tour migratoire, Limicoles, Charadrius hiaticula. -- ABSTRACT: Identifying processes and factors affecting species distribution remains a fundamental question in ecology and biogeography. Ecological barriers can have a major influence on the distribution of a species by limiting dispersal and constraining migration routes. Biotic factors like predation can also influence distribution, but their effects at broad spatial scales are difficult to assess and often overwhelmed by abiotic factors like ecological barriers and climate. We studied the effect of ecological barriers on migration strategies and the potential role of nest predation on breeding range in arctic shorebirds, known for their long-distance migrations and particularly affected by variations in predation pressure. Our first objective was to investigate the migration strategies of the Ringed Plover (Charadrius hiaticula) along the transatlantic migration route, characterized by significant ecological barriers. The second objective was to i) quantify the relative vulnerability of plover nests to predators in species with contrasting breeding ranges, the Ringed Plover and the Golden Plovers (Pluvialis dominica/apricaria/fulva), and ii) examine if differences in vulnerability to predators could be explained by their respective nesting habitat. On Bylot Island, in the Canadian Arctic, we equipped nesting Ringed Plovers with geolocator devices to track their migrations. We also quantified the nest survival of Ringed and Golden Plovers over three summers and conducted artificial nest experiments to quantify predation risk in the nesting habitat used by each species. Our results from geolocators (n=20) showed contrasting seasonal migration strategies, with Ringed Plovers minimizing continuous flight distances over the ocean in spring by making a detour to stop in Iceland. In autumn, however, most individuals crossed the ocean in one direct flight from Southern Greenland to Western Europe, as far as Southern Spain, before reaching their wintering area in West Africa. These results support the hypothesis that migration routes minimizing flight distances over ecological barriers are favored by natural selection, unless plovers can benefit from wind assistance. Nest monitoring and artificial nests also revealed that i) the widely distributed Ringed Plovers nesting along stony riverbanks showed a higher nest survival rate than the Golden Plovers nesting in mesic tundra and ii) the difference in nest predation rate was at least partly driven by nesting habitat type per se. We suggest that species adapted to nesting in less risky habitat are more likely to persist in regions characterised by high predation pressure, and hence can have broader distribution. -- Mot(s) clĂ©(s) en anglais : Distribution range, Ecological barriers, Arctic, Transatlantic migration, Predation risk, Refuge habitat, Migration detour, Shorebirds, Charadrius hiaticula

    Beyond body condition: Experimental evidence that plasma metabolites improve nutritional state measurements in a free-living seabird

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    International audienceThe ability to efficiently measure the health and nutritional status of wild populations in situ is a valuable tool, as many methods of evaluating animal physiology do not occur in real-time, limiting the possibilities for direct intervention. This study investigates the use of blood plasma metabolite concentrations, measured via point-of-care devices or a simple plate reader assay, as indicators of nutritional state in free-living seabirds. We experimentally manipulated the energy expenditure of wild black-legged kittiwakes on Middleton Island, Alaska, and measured the plasma concentrations of glucose, cholesterol, B-hydroxybutyrate, and triglycerides throughout the breeding season, along with measures of body condition (size-corrected mass [SCM] and muscle depth). Supplemental feeding improved the nutritional state of kittiwakes by increasing feeding rate (higher glucose and triglycerides, lower cholesterol), and flight-handicapping caused a slight nutritional decline (lower glucose and triglycerides, higher cholesterol and B-hydroxybutyrate). Glucose and triglycerides were the best indicators of nutritional state when used alongside SCM, and improved upon commonly used metrics for measuring individual condition (i.e. SCM or mass alone). Metabolite concentrations varied across the breeding period, suggesting that the pre-laying stage, when feeding rates tend to be lower, was the most nutritionally challenging period for kittiwakes (low glucose, high cholesterol). Muscle depth also varied by treatment and breeding stage, but differed from other nutritional indices, suggesting that muscle depth is an indicator of exercise and activity level rather than nutrition. Here we demonstrate potential for the use of blood plasma metabolites measured via point-of-care devices as proxies for evaluating individual health, population health, and environmental food availabilit

    Long-term tracking of an Arctic-breeding seabird indicates high fidelity to pelagic wintering areas

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    Site fidelity is driven by predictable resource distributions in time and space. However, intrinsic factors related to an individual’s physiology and life-history traits can contribute to consistent foraging behaviour and movement patterns. Using 11 yr of continuous geolocation tracking data (fall 2008 to spring 2019), we investigated spatiotemporal consistency in non-breeding movements in a pelagic seabird population of black-legged kittiwakes Rissa tridactyla breeding in the High Arctic (Svalbard). Our objective was to assess the relative importance of spatial versus temporal repeatability behind inter-annual movement consistency during winter. Most kittiwakes used pelagic regions of the western North Atlantic. Winter site fidelity was high both within and across individuals and at meso (100-1000 km) and macro scales (>1000 km). Spatial consistency in non-breeding movement was higher within than among individuals, suggesting that site fidelity might emerge from individuals’ memory to return to locations with predictable resource availability. Consistency was also stronger in space than in time, suggesting that it was driven by consistent resource pulses that may vary in time more so than in space. Nonetheless, some individuals displayed more flexibility by adopting a strategy of itinerancy during winter, and the causes of this flexibility are unclear. Specialization for key wintering areas can indicate vulnerability to environmental perturbations, with winter survival and carry-over effects arising from winter conditions as potential drivers of population dynamics. : Spatial distribution · Individual consistency · Migration · Repeatability · Nearest neighbor distance · Biologging · Global Location Sensors · GLSpublishedVersio

    Long-term tracking of an Arctic-breeding seabird indicates high fidelity to pelagic wintering areas

    No full text
    Site fidelity is driven by predictable resource distributions in time and space. However, intrinsic factors related to an individual’s physiology and life-history traits can contribute to consistent foraging behaviour and movement patterns. Using 11 yr of continuous geolocation tracking data (fall 2008 to spring 2019), we investigated spatiotemporal consistency in non-breeding movements in a pelagic seabird population of black-legged kittiwakes Rissa tridactyla breeding in the High Arctic (Svalbard). Our objective was to assess the relative importance of spatial versus temporal repeatability behind inter-annual movement consistency during winter. Most kittiwakes used pelagic regions of the western North Atlantic. Winter site fidelity was high both within and across individuals and at meso (100-1000 km) and macro scales (>1000 km). Spatial consistency in non-breeding movement was higher within than among individuals, suggesting that site fidelity might emerge from individuals’ memory to return to locations with predictable resource availability. Consistency was also stronger in space than in time, suggesting that it was driven by consistent resource pulses that may vary in time more so than in space. Nonetheless, some individuals displayed more flexibility by adopting a strategy of itinerancy during winter, and the causes of this flexibility are unclear. Specialization for key wintering areas can indicate vulnerability to environmental perturbations, with winter survival and carry-over effects arising from winter conditions as potential drivers of population dynamics. : Spatial distribution · Individual consistency · Migration · Repeatability · Nearest neighbor distance · Biologging · Global Location Sensors · GL

    A meta-analysis of the impact of drones on birds

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    Data archive for raw data and tables from "A meta-analysis of the impact of drones on birds", Frontiers in Ecology and the Environmen

    Individual quality overwrites carry‐over effects across the annual cycle of a long‐distance migrant

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    International audienceIn seasonal environments, the fitness of animals depends upon the successful integration of life‐history stages throughout their annual cycle. Failing to do so can lead to negative carry‐over effects where individuals are transitioning into the next season in different states, consequently affecting their future performance. However, carry‐over effects can be masked by individual quality when individuals vary in their efficiency at acquiring resources year after year (i.e. ‘quality’), leading to cross‐seasonal consistency in individual performance. Here we investigated the relative importance of carry‐over effects and individual quality in determining cross‐seasonal interactions and consequences for breeding success over the full annual cycle of a migratory seabird (black‐legged kittiwake Rissa tridactyla ). We monitored the reproduction and annual movement of kittiwakes over 13 years using geolocators to estimate their breeding success, distribution and winter energy expenditure. We combined this with an experimental approach (clutch removal experiment, 2 years) to manipulate the reproductive effort irrespective of individual quality. Piecewise path analyses showed that successful breeders reproduced earlier and were more likely to breed successfully again the following year. This positive interaction among consecutive breeding stages disappeared after controlling for individual quality, suggesting that quality was dominant in determining seasonal interactions. Moreover, controlling experimentally for individual quality revealed underlying carry‐over effects that were otherwise masked by quality, with breeding costs paid in higher energy expenditure and delayed onset of reproduction. We highlight the need to combine an experimental approach along with long‐term data while assessing apparent carry‐over effects in wild animals, and their potential impact on fitness and population demography

    Multi-colony tracking of two pelagic seabirds with contrasting flight capability illustrates how windscapes shape migratory movements at an ocean-basin scale

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    Migration is a common trait among many animals allowing the exploitation of spatiotemporally variable resources. It often implies high energetic costs to cover large distances, for example between breeding and wintering grounds. For flying or swimming animals, the adequate use of winds and currents can help reduce the associated energetic costs. Migratory seabirds are good models because they dwell in habitats characterized by strong winds while undertaking very long migrations. We tested the hypothesis that seabirds migrate through areas with favourable winds. To that end, we used a multi-colony geolocator tracking dataset of two North Atlantic seabirds with contrasting flight capabilities, the black-legged kittiwake (Rissa tridactyla) and the Atlantic puffin (Fratercula arctica), and wind data from the ERA5 climate reanalysis model. Both species had on average positive wind support during migration. Their main migratory routes were similar and followed seasonally prevailing winds. The general migratory movement had a loop-shape at the scale of the North Atlantic, with an autumn route (southward) along the east coast of Greenland, and a spring route (northward) closer to the British Isles. While migrating, both species had higher wind support in spring than in autumn. Kittiwakes migrated farther and benefited from higher wind support than puffins on average. The variation in wind conditions encountered while migrating was linked to the geographical location of the colonies. Generally, northernmost colonies had better wind support in autumn while the southernmost colonies had a better wind support in spring, with some exceptions. Our study helps in understanding how the physical environment shapes animal migration, which is crucial to further predict how migrants will be impacted by ongoing environmental changes.Funding provided by: Norwegian Ministry for Climate and the Environment*Crossref Funder Registry ID: Award Number: Funding provided by: Norwegian Ministry of Foreign Affairs*Crossref Funder Registry ID: Award Number: Funding provided by: Norwegian Oil and Gas Association*Crossref Funder Registry ID: Award Number: Funding provided by: SEAPOP program *Crossref Funder Registry ID: Award Number: Funding provided by: Institut Polaire Français Paul Emile VictorCrossref Funder Registry ID: http://dx.doi.org/10.13039/501100004796Award Number: 330Funding provided by: Natural Environment Research CouncilCrossref Funder Registry ID: http://dx.doi.org/10.13039/501100000270Award Number: NE/R016429/

    Multi‐colony tracking of two pelagic seabirds with contrasting flight capability illustrates how windscapes shape migratory movements at an ocean‐basin scale

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    International audienceMigration is a common trait among many animals allowing the exploitation of spatiotemporally variable resources. It often implies high energetic costs to cover large distances, for example between breeding and wintering grounds. For flying or swimming animals, the adequate use of winds and currents can help reduce the associated energetic costs. Migratory seabirds are good models because they dwell in habitats characterized by strong winds while undertaking very long migrations. We tested the hypothesis that seabirds migrate through areas with favourable winds. To that end, we used the SEATRACK dataset, a multi‐colony geolocator tracking dataset, for two North Atlantic seabirds with contrasting flight capabilities, the black‐legged kittiwake Rissa tridactyla and the Atlantic puffin Fratercula arctica , and wind data from the ERA5 climate reanalysis model. Both species had on average positive wind support during migration. Their main migratory routes were similar and followed seasonally prevailing winds. The general migratory movement had a loop‐shape at the scale of the North Atlantic, with an autumn route (southward) along the east coast of Greenland, and a spring route (northward) closer to the British Isles. While migrating, both species had higher wind support in spring than in autumn. Kittiwakes migrated farther and benefited from higher wind support than puffins on average. The variation in wind conditions encountered while migrating was linked to the geographical location of the colonies. Generally, northernmost colonies had a better wind support in autumn while the southernmost colonies had a better wind support in spring, with some exceptions. Our study helps understanding how the physical environment shapes animal migration, which is crucial to further predict how migrants will be impacted by ongoing environmental changes
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